Fast physical-random number generation for laser range finders using a laser diode's frequency noise: comparison of the used lasers for fast random number generation

Asia-Pacific Remote Sensing Pub Date : 2018-10-23 DOI:10.1117/12.2324692

Yuki Kasuya, Masamichi Suzuki, K. Matsumoto, H. Arai, Takashi Sato, S. Sakamoto, M. Ohkawa, Y. Ohdaira

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Abstract

While optical laser range finders use random signals to determine distance, a laser diode’s fast frequency noise can perform the task. Moreover, this signal can be applied to physical-random number generation. This research describes a method, whereby laser diode’s frequency noise characteristics generate a large number of physical-random numbers and determine the distance to a target [1] [2]. We tested the random number generating- and distance- measuring capabilities of two types of lasers; a Fabry-Perot-LD and VCSEL: (Vertical Cavity Surface Emitting Laser). With the Fabry-Perot etalon functioning as frequency discriminator, we investigated the physical-random numbers’ characteristics from both Fabry-Perot-LD’s and the VCSEL’s characteristic’s points of view. We verified the generated binary number’s randomness, using NIST FIPS140-2 test, and noted the Random Number Generation (RNG) speed of a FP-LD was 48 Gbit/s, and that of a VCSEL was 159 Gbit/s. When the generation speed of the physical-random number is high, we can increase the sampling rate of our range finders and improve resolution.

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使用激光二极管频率噪声的激光测距仪的快速物理随机数生成:用于快速随机数生成的常用激光器的比较

当光学激光测距仪使用随机信号来确定距离时，激光二极管的快速频率噪声可以完成这项任务。此外，该信号还可以应用于物理随机数的生成。本研究描述了一种利用激光二极管的频率噪声特性产生大量物理随机数来确定与目标距离的方法[1][2]。我们测试了两种激光器的随机数生成和距离测量能力;a Fabry-Perot-LD和VCSEL(垂直腔面发射激光器)。以Fabry-Perot标准子为鉴频器，分别从Fabry-Perot- ld和VCSEL两方面研究了物理随机数的特性。通过NIST FIPS140-2测试验证了所生成二进制数的随机性，发现FP-LD的随机数生成(RNG)速度为48 Gbit/s, VCSEL的RNG速度为159 Gbit/s。当物理随机数的生成速度较高时，可以提高测距仪的采样率，提高分辨率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asia-Pacific Remote Sensing

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